Ted Kelly
Back to Psych 204 Projects 2009
Multi Voxel Pattern Analysis in the Ventral Temporal Cortex
Recent Studies have shown that there are clearly defined regions within the ventral temporal cortex that preferentially respond to faces (fusiform face area), places (Parahippocampal Place Area) and objects. In particular, the FFA has been shown to undergo development from childhood throughout adolescence. This study uses multi voxel pattern analysis to confirm both the location and the growth of the FFA in the VTC.
Background
Multi Voxel Pattern Analysis vs. ROI analysis
Most of the current research on the VTC and the FFA has focused on region of interest (ROI) analyses. This analysis focuses on the highest activations of the voxels selective for faces. Usually, activations are thresholded so that only voxels responding over a certain level are looked at. Supporters of this type of analysis say that the highest activations are the most interesting and provide the clearest evidence for the age related growth of the FFA (in volume and in more well-defined areas selective for faces vs. non-face stimuli). However, multi voxel pattern analysis (MVPA) supporters insist that there is much more information in all the activations in the VTC, not just the highest ones. They say that the activations are distributed throughout the entire VTC and that the aforementioned growth of the FFA is actually just growth of the entire VTC. This study aims to prove the MVPA supporters wrong by using MVPA to support the initial analyses provided by ROIs.
Methods
Subjects
MNI is an abbreviation for Montreal Neurological Institute.
Methods
Measuring retinotopic maps
Retinotopic maps were obtained in 5 subjects using Population Receptive Field mapping methods Dumoulin and Wandell (2008). These data were collected for another research project in the Wandell lab. We re-analyzed the data for this project, as described below.
Subjects
Subjects were 5 healthy volunteers.
MR acquisition
Data were obtained on a GE scanner. Et cetera.
MR Analysis
The MR data was analyzed using mrVista software tools.
Pre-processing
All data were slice-time corrected, motion corrected, and repeated scans were averaged together to create a single average scan for each subject. Et cetera.
PRF model fits
PRF models were fit with a 2-gaussian model.
MNI space
After a pRF model was solved for each subject, the model was trasnformed into MNI template space. This was done by first aligning the high resolution t1-weighted anatomical scan from each subject to an MNI template. Since the pRF model was coregistered to the t1-anatomical scan, the same alignment matrix could then be applied to the pRF model.
Once each pRF model was aligned to MNI space, 4 model parameters - x, y, sigma, and r^2 - were averaged across each of the 6 subjects in each voxel.
Et cetera.
Results - What you found
Retinotopic models in native space
Some text. Some analysis. Some figures.
Retinotopic models in individual subjects transformed into MNI space
Some text. Some analysis. Some figures.
Retinotopic models in group-averaged data on the MNI template brain
Some text. Some analysis. Some figures. Maybe some equations.
Equations
If you want to use equations, you can use the same formats that are use on wikipedia.
See wikimedia help on formulas for help.
This example of equation use is copied and pasted from wikipedia's article on the DFT.
The sequence of N complex numbers x0, ..., xN−1 is transformed into the sequence of N complex numbers X0, ..., XN−1 by the DFT according to the formula:
where i is the imaginary unit and is a primitive N'th root of unity. (This expression can also be written in terms of a DFT matrix; when scaled appropriately it becomes a unitary matrix and the Xk can thus be viewed as coefficients of x in an orthonormal basis.)
The transform is sometimes denoted by the symbol , as in or or .
The inverse discrete Fourier transform (IDFT) is given by
Retinotopic models in group-averaged data projected back into native space
Some text. Some analysis. Some figures.
Conclusions
Here is where you say what your results mean.
References
Software
Appendix I - Code and Data
Code
Data
Appendix II - Work partition (if a group project)
Brian and Bob gave the lectures. Jon mucked around on the wiki.